Research on powder-based additive manufacturing of aluminium alloys is rapidly
increasing, and recent breakthroughs in printing of defect-free parts promise substantial …

This is the first account of the history of modelling dendritic and cellular solidification. While
Part I reviewed the progress up to the year 2000 [Kurz W, Fisher DJ, Trivedi R. Progress in …

Spatial control of microstructure within a three-dimensional component has been a dream of
materials scientists for centuries. However, limitations in traditional manufacturing processes …

As base metals (BMs), plates of 5-mm-thick low-alloyed ultra-high-strength carbon steel (LA-
UHSS) with a tensile strength of 1.3 GPa and 5-mm-thick 316L austenitic stainless steel …

The brazing of diamond is a promising way to fabricate grinding wheels for efficient
machining and precision grinding. This work investigated the feasibility of bonding diamond …

Achieving high ductility in welded joints of ultra-high strength steel has always been a
challenge. This study addressed this issue by optimizing laser oscillating strategies during …

The tensile-shear strength of laser-welded lap joints developed in abrasion resistance ultra-
high strength ARS-600 steel was optimized by evaluating the joints achieved with different …

It's difficult to weld high strength thick plate since the groove is huge when using traditional
arc welding, and the weld tends to be softened and large deformation could occur after multi …

Considering the thermophysical properties of materials and the latent heat of phase change,
the temperature field, HAZ microstructure evolution, residual stress and post-weld …

The primary austenitic solidification mode of Twinning Induced Plasticity (TWIP) steel weld
joints is one of the most important issues limiting its weldability. In order to gain knowledge …